Accession

PRJNA1055471

Title

Microbe-enhanced high light stress tolerance of Arabidopsis thaliana photosynthesis is coordinated through Iron-dependent redox metabolism

Relevance

ModelOrganism

Data types

Transcriptome or Gene expression

Sample scope

Multiisolate

Organism

Arabidopsis thaliana [Taxonomy ID: 3702]

Description

High light stress in subtropical and tropical regions strongly limits agricultural production due to photo-oxidative damage, decreased growth and yield. Here, we investigated whether beneficial microbes can protect plants under high light stress. We show that Enterobacter sp. SA187 (SA187) assists Arabidopsis in maintaining growth under high light stress, reducing the accumulation of reactive oxygen species (ROS) and maintaining photosynthesis. Under high light stress, SA187 induces dynamic transcriptional changes related to a fortified iron metabolism and redox system in Arabidopsis. A genetic analysis shows that SA187-induced plant high light stress tolerance is mediated by ethylene signaling via the transcription factor EIN3 to enhance iron metabolism. In summary, we show that Arabidopsis interaction with SA187 results in sustained photosynthesis under high light stress suggesting that beneficial microbes could be effective and cheap means for enhancing high light stress tolerance in crops. Overall design: Arabidopsis thaliana plants were grown at 22⁰C under 16 h light and 8 h dark period Two different light stress regimes (normal light 130 μmol m-2 s-1 and high light 1050 μmol m-2 s-1 ) were implemented on SA187 colonized plants Total RNA was extracted using Nucleospin RNA plant kit (Macherey-Nagel), we further followed with DNaseI treatment to remove gemomic DNA as per manufacturer’s instructions. RNA libraries were prepared for sequencing using standard Ribo-zero Illumina protocol RNA-seq was carried out on three independent biological replicates (except two samples)

Publication

PubMed ID	Article title	Journal name	DOI	Year
38956873

External link

Link description

Organization

Hirt lab, KAUST

Data Source

NCBI

Project Data

Resource name	Description
Experiment (31) show	-
SRX22995438	GSM7988285: HL-1hr-R1 [M_19_2041_7_AD007_L001]; Arabidopsis thaliana; RNA-Seq
SRX22995439	GSM7988286: HL-1hr-R2 [M_19_2042_8_AD008_L002]; Arabidopsis thaliana; RNA-Seq
SRX22995440	GSM7988287: HL-1hr-R3 [M_19_2043_9_AD009_L002]; Arabidopsis thaliana; RNA-Seq
SRX22995441	GSM7988288: NL-1h-R2 [M_19_2047_14_AD014_L002]; Arabidopsis thaliana; RNA-Seq
SRX22995442	GSM7988289: NL-1h-R3 [M_19_2048_15_AD015_L002]; Arabidopsis thaliana; RNA-Seq
SRX22995443	GSM7988290: NL+187-R-1 [M_19_2049_16_AD016_L003]; Arabidopsis thaliana; RNA-Seq
SRX22995444	GSM7988291: NL+187-R-2 [M_19_2050_17_AD018_L003]; Arabidopsis thaliana; RNA-Seq
SRX22995445	GSM7988292: NL+187-R-3 [M_19_2051_18_AD019_L003]; Arabidopsis thaliana; RNA-Seq
SRX22995446	GSM7988293: HL+187-5days-R-1 [M_19_2052_19_AD020_L003]; Arabidopsis thaliana; RNA-Seq
SRX22995447	GSM7988294: HL+187-5days-R-2 [M_19_2053_20_AD021_L003]; Arabidopsis thaliana; RNA-Seq
SRX22995448	GSM7988295: HL+187-5days-R-3 [M_19_2054_21_AD022_L003]; Arabidopsis thaliana; RNA-Seq
SRX22995449	GSM7988296: HL-5days-R-1 [M_19_2055_22_AD023_L003]; Arabidopsis thaliana; RNA-Seq
SRX22995450	GSM7988297: HL-5days-R-2 [M_19_2056_23_AD025_L004]; Arabidopsis thaliana; RNA-Seq
SRX22995451	GSM7988298: HL-5days-R-3 [M_19_2057_24_AD027_L004]; Arabidopsis thaliana; RNA-Seq
SRX22995452	GSM7988299: NL+187-5Days-R-1 [M_19_2058_25_AD001_L004]; Arabidopsis thaliana; RNA-Seq
SRX22995453	GSM7988300: NL+187-5Days-R-2 [M_19_2059_26_AD002_L004]; Arabidopsis thaliana; RNA-Seq
SRX22995454	GSM7988301: NL+187-5Days-R-3 [M_19_2060_27_AD003_L004]; Arabidopsis thaliana; RNA-Seq
SRX22995455	GSM7988302: NL-5Days-R-1 [M_19_2061_28_AD004_L004]; Arabidopsis thaliana; RNA-Seq
SRX22995456	GSM7988303: NL-5Days-R-2 [M_19_2062_29_AD005_L004]; Arabidopsis thaliana; RNA-Seq
SRX22995457	GSM7988304: NL-5Days-R-3 [M_19_2063_30_AD006_L005]; Arabidopsis thaliana; RNA-Seq
SRX22995458	GSM7988305: NL-24hr-R-1 [M_19_2064_31_AD007_L005]; Arabidopsis thaliana; RNA-Seq
SRX22995459	GSM7988306: NL-24hr-R-2 [M_19_2065_32_AD008_L005]; Arabidopsis thaliana; RNA-Seq
SRX22995460	GSM7988307: NL-24hr-R-3 [M_19_2066_33_AD009_L005]; Arabidopsis thaliana; RNA-Seq
SRX22995461	GSM7988308: NL+187-24hr-R-1 [M_19_2067_34_AD010_L005]; Arabidopsis thaliana; RNA-Seq
SRX22995462	GSM7988309: NL+187-24hr-R-2 [M_19_2068_35_AD011_L005]; Arabidopsis thaliana; RNA-Seq
SRX22995463	GSM7988310: NL+187-24hr-R-3 [M_19_2069_36_AD012_L005]; Arabidopsis thaliana; RNA-Seq
SRX22995464	GSM7988311: HL-24hr-R-1 [M_19_2070_37_AD013_L006]; Arabidopsis thaliana; RNA-Seq
SRX22995465	GSM7988312: HL-24hr-R-2 [M_19_2071_38_AD014_L006]; Arabidopsis thaliana; RNA-Seq
SRX22995466	GSM7988313: HL-24hr-R-3 [M_19_2072_39_AD015_L006]; Arabidopsis thaliana; RNA-Seq
SRX22995467	GSM7988314: HL+187-24hrs-_R-1 [M_19_2073_40_AD016_L006]; Arabidopsis thaliana; RNA-Seq
SRX22995468	GSM7988315: HL+187-24hrs-_R-3 [M_19_2074_42_AD019_L006]; Arabidopsis thaliana; RNA-Seq